Merge pull request #665 from afischerdev/rework-voicehint

Rework on voicehints

brouter-core/src/main/java/btools/router/FormatGpx.java

@@ -153,7 +153,9 @@ public class FormatGpx extends Formatter {
         sb.append(" <wpt lon=\"").append(formatILon(hint.ilon)).append("\" lat=\"")
           .append(formatILat(hint.ilat)).append("\">")
           .append(hint.selev == Short.MIN_VALUE ? "" : "<ele>" + (hint.selev / 4.) + "</ele>")
-          .append("<name>").append(hint.getMessageString()).append("</name>")
+          .append("<name>")
+          .append(hint.getMessageString())
+          .append("</name>")
           .append("<extensions><locus:rteDistance>").append("" + hint.distanceToNext).append("</locus:rteDistance>");
         float rteTime = t.getVoiceHintTime(i + 1);
         if (rteTime != lastRteTime) { // add timing only if available

brouter-core/src/main/java/btools/router/OsmTrack.java

@@ -500,7 +500,8 @@ public final class OsmTrack {
       node = node.origin;
     }
 
-    VoiceHintProcessor vproc = new VoiceHintProcessor(rc.turnInstructionCatchingRange, rc.turnInstructionRoundabouts);
+    int transportMode = voiceHints.transportMode();
+    VoiceHintProcessor vproc = new VoiceHintProcessor(rc.turnInstructionCatchingRange, rc.turnInstructionRoundabouts, transportMode);
     List<VoiceHint> results = vproc.process(inputs);
 
     double minDistance = getMinDistance();
@@ -513,13 +514,12 @@ public final class OsmTrack {
 
   int getMinDistance() {
     if (voiceHints != null) {
-      switch (voiceHints.getTransportMode()) {
-        case "car":
+      switch (voiceHints.transportMode()) {
+        case VoiceHintList.TRANS_MODE_CAR:
           return 20;
-        case "bike":
-          return 5;
-        case "foot":
+        case VoiceHintList.TRANS_MODE_FOOT:
           return 3;
+        case VoiceHintList.TRANS_MODE_BIKE:
         default:
           return 5;
       }

brouter-core/src/main/java/btools/router/VoiceHint.java

@@ -44,6 +44,7 @@ public class VoiceHint {
   float angle = Float.MAX_VALUE;
   boolean turnAngleConsumed;
   boolean needsRealTurn;
+  int maxBadPrio = -1;
 
   int roundaboutExit;
 

brouter-core/src/main/java/btools/router/VoiceHintList.java

@@ -10,23 +10,50 @@ import java.util.ArrayList;
 import java.util.List;
 
 public class VoiceHintList {
-  private String transportMode;
+
+  static final int TRANS_MODE_NONE = 0;
+  static final int TRANS_MODE_FOOT = 1;
+  static final int TRANS_MODE_BIKE = 2;
+  static final int TRANS_MODE_CAR  = 3;
+
+  private int transportMode = TRANS_MODE_BIKE;
   int turnInstructionMode;
   List<VoiceHint> list = new ArrayList<>();
 
   public void setTransportMode(boolean isCar, boolean isBike) {
-    transportMode = isCar ? "car" : (isBike ? "bike" : "foot");
+    transportMode = isCar ? TRANS_MODE_CAR : (isBike ? TRANS_MODE_BIKE : TRANS_MODE_FOOT);
+  }
+
+  public void setTransportMode(int mode) {
+    transportMode = mode;
   }
 
   public String getTransportMode() {
+    String ret;
+    switch (transportMode) {
+      case TRANS_MODE_FOOT:
+        ret = "foot";
+        break;
+      case TRANS_MODE_CAR:
+        ret = "car";
+        break;
+      case TRANS_MODE_BIKE:
+      default:
+        ret = "bike";
+        break;
+    }
+    return ret;
+  }
+
+  public int transportMode() {
     return transportMode;
   }
 
   public int getLocusRouteType() {
-    if ("car".equals(transportMode)) {
+    if (transportMode == TRANS_MODE_CAR) {
       return 0;
     }
-    if ("bike".equals(transportMode)) {
+    if (transportMode == TRANS_MODE_BIKE) {
       return 5;
     }
     return 3; // foot

brouter-core/src/main/java/btools/router/VoiceHintProcessor.java

@@ -15,10 +15,12 @@ public final class VoiceHintProcessor {
 
   // private double catchingRange; // range to catch angles and merge turns
   private boolean explicitRoundabouts;
+  private int transportMode;
 
-  public VoiceHintProcessor(double catchingRange, boolean explicitRoundabouts) {
+  public VoiceHintProcessor(double catchingRange, boolean explicitRoundabouts, int transportMode) {
     // this.catchingRange = catchingRange;
     this.explicitRoundabouts = explicitRoundabouts;
+    this.transportMode = transportMode;
   }
 
   private float sumNonConsumedWithinCatchingRange(List<VoiceHint> inputs, int offset) {
@@ -81,10 +83,21 @@ public final class VoiceHintProcessor {
       if (explicitRoundabouts && input.oldWay.isRoundabout()) {
         if (roundaboudStartIdx == -1) roundaboudStartIdx = hintIdx;
         roundAboutTurnAngle += sumNonConsumedWithinCatchingRange(inputs, hintIdx);
+        if (roundaboudStartIdx == hintIdx) {
+          if (input.badWays != null) {
+            // remove goodWay
+            roundAboutTurnAngle -= input.goodWay.turnangle;
+            // add a badWay
+            for (MessageData badWay : input.badWays) {
+              if (!badWay.isBadOneway()) roundAboutTurnAngle += badWay.turnangle;
+            }
+          }
+        }
         boolean isExit = roundaboutExit == 0; // exit point is always exit
         if (input.badWays != null) {
           for (MessageData badWay : input.badWays) {
-            if (!badWay.isBadOneway() && badWay.isGoodForCars() && Math.abs(badWay.turnangle) < 120.) {
+            if (!badWay.isBadOneway() &&
+              badWay.isGoodForCars()) {
               isExit = true;
             }
           }
@@ -95,12 +108,35 @@ public final class VoiceHintProcessor {
         continue;
       }
       if (roundaboutExit > 0) {
-        roundAboutTurnAngle += sumNonConsumedWithinCatchingRange(inputs, hintIdx);
-        double startTurn = (roundaboudStartIdx != -1 ? inputs.get(roundaboudStartIdx).goodWay.turnangle : turnAngle);
+        //roundAboutTurnAngle += sumNonConsumedWithinCatchingRange(inputs, hintIdx);
+        //double startTurn = (roundaboudStartIdx != -1 ? inputs.get(roundaboudStartIdx + 1).goodWay.turnangle : turnAngle);
         input.angle = roundAboutTurnAngle;
+        input.goodWay.turnangle = roundAboutTurnAngle;
         input.distanceToNext = distance;
-        input.roundaboutExit = startTurn < 0 ? -roundaboutExit : roundaboutExit;
+        //input.roundaboutExit = startTurn < 0 ? roundaboutExit : -roundaboutExit;
+        input.roundaboutExit = roundAboutTurnAngle < 0 ? roundaboutExit : -roundaboutExit;
+        float tmpangle = 0;
+        VoiceHint tmpRndAbt = new VoiceHint();
+        tmpRndAbt.badWays = new ArrayList<>();
+        for (int i = hintIdx-1; i > roundaboudStartIdx; i--) {
+          VoiceHint vh = inputs.get(i);
+          tmpangle += inputs.get(i).goodWay.turnangle;
+          if (vh.badWays != null) {
+            for (MessageData badWay : vh.badWays) {
+              if (!badWay.isBadOneway()) {
+                MessageData md = new MessageData();
+                md.linkdist = vh.goodWay.linkdist;
+                md.priorityclassifier = vh.goodWay.priorityclassifier;
+                md.turnangle = tmpangle;
+                tmpRndAbt.badWays.add(md);
+              }
+            }
+          }
+        }
         distance = 0.;
+
+        input.badWays = tmpRndAbt.badWays;
+
         results.add(input);
         roundAboutTurnAngle = 0.f;
         roundaboutExit = 0;
@@ -127,10 +163,7 @@ public final class VoiceHintProcessor {
 
           if (badPrio > maxPrioAll && !isBadHighway2Link) {
             maxPrioAll = badPrio;
-          }
-
-          if (badWay.costfactor < 20.f && Math.abs(badTurn) < minAbsAngeRaw) {
-            minAbsAngeRaw = Math.abs(badTurn);
+            input.maxBadPrio = Math.max(input.maxBadPrio, badPrio);
           }
 
           if (badPrio < minPrio) {
@@ -145,8 +178,13 @@ public final class VoiceHintProcessor {
             continue; // ways from the back should not trigger a slight turn
           }
 
+          if (badWay.costfactor < 20.f && Math.abs(badTurn) < minAbsAngeRaw) {
+            minAbsAngeRaw = Math.abs(badTurn);
+          }
+
           if (badPrio > maxPrioCandidates) {
             maxPrioCandidates = badPrio;
+            input.maxBadPrio = Math.max(input.maxBadPrio, badPrio);
           }
           if (badTurn > maxAngle) {
             maxAngle = badTurn;
@@ -157,7 +195,8 @@ public final class VoiceHintProcessor {
         }
       }
 
-      boolean hasSomethingMoreStraight = (Math.abs(turnAngle) - minAbsAngeRaw) > 20.;
+      // boolean hasSomethingMoreStraight = (Math.abs(turnAngle) - minAbsAngeRaw) > 20.;
+      boolean hasSomethingMoreStraight = (Math.abs(turnAngle - minAbsAngeRaw)) > 20. && input.badWays != null; // && !ignoreBadway;
 
       // unconditional triggers are all junctions with
       // - higher detour prios than the minimum route prio (except link->highway junctions)
@@ -244,18 +283,17 @@ public final class VoiceHintProcessor {
     List<VoiceHint> results = new ArrayList<>();
     double distance = 0;
     VoiceHint inputLast = null;
-    ArrayList<VoiceHint> tmpList = new ArrayList<>();
+    VoiceHint inputLastSaved = null;
     for (int hintIdx = 0; hintIdx < inputs.size(); hintIdx++) {
       VoiceHint input = inputs.get(hintIdx);
+      VoiceHint nextInput = null;
+      if (hintIdx + 1 < inputs.size()) {
+        nextInput = inputs.get(hintIdx + 1);
+      }
 
+      if (nextInput == null) {
         if (input.cmd == VoiceHint.C && !input.goodWay.isLinktType()) {
-        int badWayPrio = 0;
-        if (input.badWays != null) {
-          for (MessageData md : input.badWays) {
-            badWayPrio = Math.max(badWayPrio, md.getPrio());
-          }
-        }
-        if (input.goodWay.getPrio() < badWayPrio) {
+          if (input.goodWay.getPrio() < input.maxBadPrio && (inputLastSaved != null && inputLastSaved.distanceToNext > catchingRange)) {
             results.add(input);
           } else {
             if (inputLast != null) { // when drop add distance to last
@@ -264,60 +302,113 @@ public final class VoiceHintProcessor {
             continue;
           }
         } else {
-        if (input.distanceToNext < catchingRange) {
+          results.add(input);
+        }
+      } else {
+        if ((inputLastSaved != null && inputLastSaved.distanceToNext > catchingRange) || input.distanceToNext > catchingRange) {
+          if (input.cmd == VoiceHint.C && !input.goodWay.isLinktType()) {
+            if (input.goodWay.getPrio() < input.maxBadPrio
+                && (inputLastSaved != null && inputLastSaved.distanceToNext > minRange)
+                && (input.distanceToNext > minRange)) {
+              // add only on prio
+              results.add(input);
+              inputLastSaved = input;
+            } else {
+              if (inputLastSaved != null) { // when drop add distance to last
+                inputLastSaved.distanceToNext += input.distanceToNext;
+              }
+            }
+          } else {
+            // add all others
+            // ignore motorway / primary continue
+            if (((input.goodWay.getPrio() != 28) &&
+                (input.goodWay.getPrio() != 30) &&
+                (input.goodWay.getPrio() != 26))
+                || input.isRoundabout()
+                || Math.abs(input.angle) > 21.f) {
+              results.add(input);
+              inputLastSaved = input;
+            } else {
+              if (inputLastSaved != null) { // when drop add distance to last
+                inputLastSaved.distanceToNext += input.distanceToNext;
+              }
+            }
+          }
+        } else if (input.distanceToNext < catchingRange) {
           double dist = input.distanceToNext;
           float angles = input.angle;
           int i = 1;
-          boolean save = true;
-          tmpList.clear();
-          while (dist < catchingRange && hintIdx + i < inputs.size()) {
-            VoiceHint h2 = inputs.get(hintIdx + i);
-            dist += h2.distanceToNext;
-            angles += h2.angle;
-            if (VoiceHint.is180DegAngle(input.angle) || VoiceHint.is180DegAngle(h2.angle)) {  // u-turn, 180 degree
+          boolean save = false;
+
+          dist += nextInput.distanceToNext;
+          angles += nextInput.angle;
+
+          if (input.cmd == VoiceHint.C && !input.goodWay.isLinktType()) {
+            if (input.goodWay.getPrio() < input.maxBadPrio) {
+              if (inputLastSaved != null && inputLastSaved.cmd != VoiceHint.C
+                  && (inputLastSaved != null && inputLastSaved.distanceToNext > minRange)
+                  && transportMode != VoiceHintList.TRANS_MODE_CAR) {
+                // add when straight and not linktype
+                // and last vh not straight
                 save = true;
-              break;
-            } else if (Math.abs(angles) > 180 - SIGNIFICANT_ANGLE) { // u-turn, collects e.g. two left turns in range
+                // remove when next straight and not linktype
+                if (nextInput != null &&
+                    nextInput.cmd == VoiceHint.C &&
+                    !nextInput.goodWay.isLinktType()) {
+                  input.distanceToNext += nextInput.distanceToNext;
+                  hintIdx++;
+                }
+              }
+
+            } else {
+              if (inputLastSaved != null) { // when drop add distance to last
+                inputLastSaved.distanceToNext += input.distanceToNext;
+              }
+            }
+          } else if (VoiceHint.is180DegAngle(input.angle)) {
+            // add u-turn, 180 degree
+            save = true;
+          } else if (transportMode == VoiceHintList.TRANS_MODE_CAR && Math.abs(angles) > 180 - SIGNIFICANT_ANGLE) {
+            // add when inc car mode and u-turn, collects e.g. two left turns in range
             input.angle = angles;
             input.calcCommand();
-              input.distanceToNext += h2.distanceToNext;
+            input.distanceToNext += nextInput.distanceToNext;
             save = true;
             hintIdx++;
-              break;
           } else if (Math.abs(angles) < SIGNIFICANT_ANGLE && input.distanceToNext < minRange) {
             input.angle = angles;
             input.calcCommand();
-              input.distanceToNext += h2.distanceToNext;
+            input.distanceToNext += nextInput.distanceToNext;
             save = true;
             hintIdx++;
-              break;
           } else if (Math.abs(input.angle) > SIGNIFICANT_ANGLE) {
-              tmpList.add(h2);
-              hintIdx++;
-            } else if (dist > catchingRange) { // distance reached
-              break;
+            // add when angle above 22.5 deg
+            save = true;
+          } else if (Math.abs(input.angle) < SIGNIFICANT_ANGLE) {
+            // add when angle below 22.5 deg ???
+            // save = true;
           } else {
-              if (inputLast != null) { // when drop add distance to last
-                inputLast.distanceToNext += input.distanceToNext;
+            // otherwise ignore but add distance to next
+            if (nextInput != null) { // when drop add distance to last
+              nextInput.distanceToNext += input.distanceToNext;
             }
             save = false;
           }
-            i++;
-          }
+
           if (save) {
             results.add(input); // add when last
-            if (tmpList.size() > 0) { // add when something in stock
-              results.addAll(tmpList);
-              hintIdx += tmpList.size() - 1;
-            }
+            inputLastSaved = input;
           }
         } else {
           results.add(input);
+          inputLastSaved = input;
+        }
       }
       inputLast = input;
     }
-    }
+
     return results;
   }
 
+
 }